Power sources suitable for use in implantable medical devices and corresponding fabrication methods
First Claim
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1. A power source for an implantable medical device, the power source comprising:
- a plurality of planar solid state batteries overlaying one another in an aligned arrangement and adhered to one another to form a stack, the stack having first and second edges extending along a height of the stack, the first and second edges being opposite one another;
a first group of conductive vias, each via of the first group extending through a positive contact of a corresponding battery and approximately parallel to the first edge of the stack;
a second group of conductive vias, each via of the second group extending through a negative contact of a corresponding battery and approximately parallel to the first edge of the stack;
a first group of redistribution layers, each redistribution layer of the first group of redistribution layers extending over a first surface of a corresponding battery and each including a first conductive trace, coupled to the positive battery contact of the corresponding battery, and a second conductive trace, coupled to the negative contact of the corresponding battery, each first conductive trace extending to the first edge of the stack, and each second conductive trace extending to the second edge of the stack; and
a second group of redistribution layers, each redistribution layer of the second group of redistribution layers extending over a second surface of a corresponding battery, the second surface opposite the first surface, and each second group of redistribution layers including a conductive bonding runner, each conductive bonding runner being coupled to a corresponding via of the first and second groups of conductive vias and to a corresponding conductive trace of an adjacent and confronting redistribution layer of the first group of redistribution layers.
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Abstract
Arrays of planar solid state batteries are stacked in an aligned arrangement for subsequent separation into individual battery stacks. Prior to stacking, a redistribution layer (RDL) is formed over a surface of each wafer that contains an array; each RDL includes first and second groups of conductive traces, each of the first extending laterally from a corresponding positive battery contact, and each of the second extending laterally from a corresponding negative battery contact. Conductive vias, formed before or after stacking, ultimately couple together corresponding contacts of aligned batteries. If before, each via extends through a corresponding battery contact of each wafer and is coupled to a corresponding conductive layer that is included in another RDL formed over an opposite surface of each wafer. If after, each via extends through corresponding aligned conductive traces and, upon separation of individual battery stacks, becomes an exposed conductive channel of a corresponding battery stack.
11 Citations
4 Claims
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1. A power source for an implantable medical device, the power source comprising:
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a plurality of planar solid state batteries overlaying one another in an aligned arrangement and adhered to one another to form a stack, the stack having first and second edges extending along a height of the stack, the first and second edges being opposite one another; a first group of conductive vias, each via of the first group extending through a positive contact of a corresponding battery and approximately parallel to the first edge of the stack; a second group of conductive vias, each via of the second group extending through a negative contact of a corresponding battery and approximately parallel to the first edge of the stack; a first group of redistribution layers, each redistribution layer of the first group of redistribution layers extending over a first surface of a corresponding battery and each including a first conductive trace, coupled to the positive battery contact of the corresponding battery, and a second conductive trace, coupled to the negative contact of the corresponding battery, each first conductive trace extending to the first edge of the stack, and each second conductive trace extending to the second edge of the stack; and a second group of redistribution layers, each redistribution layer of the second group of redistribution layers extending over a second surface of a corresponding battery, the second surface opposite the first surface, and each second group of redistribution layers including a conductive bonding runner, each conductive bonding runner being coupled to a corresponding via of the first and second groups of conductive vias and to a corresponding conductive trace of an adjacent and confronting redistribution layer of the first group of redistribution layers. - View Dependent Claims (2, 3, 4)
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Specification
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Current AssigneeMedtronic Incorporated (Medtronic Plc)
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Original AssigneeMedtronic Incorporated (Medtronic Plc)
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InventorsAskarinya, Mohsen, Fenner, Andreas A., Herrmann, Erik J., Ruben, David A., Day, John K.
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Primary Examiner(s)Wang, Eugenia
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Application NumberUS13/524,304Publication NumberTime in Patent Office1,327 DaysField of SearchUS Class Current1/1CPC Class CodesA61N 1/3758 Packaging of the components...A61N 1/378 Electrical supplyH01M 10/0436 Small-sized flat cells or b...H01M 10/0525 Rocking-chair batteries, i....H01M 10/0562 Solid materialsH01M 10/0585 of accumulators having only...H01M 10/647 Prismatic or flat cells, e....H01M 50/209 adapted for prismatic or re...H01M 50/503 characterised by the shape ...H01M 50/507 comprising an arrangement o...H01M 50/516 by welding, soldering or br...H01M 50/528 Fixed electrical connection...H01M 50/529 Intercell connections throu...H01M 6/40 Printed batteries , e.g. th...H01M 6/46 of flat cellsY02E 60/10 Energy storage using batteriesY02P 70/50 Manufacturing or production...Y10T 29/49112 including laminating of ind...
